Electromagnetic selection device for a two-stage planetary gear set
An electromagnetic selection device of a two-stage planetary gear set (1) having one input shaft (2) and one output shaft (3), one sun gear (8), one ring gear (11), one planet carrier (10) with planetary gears (9), one transmission housing (6) and one sliding sleeve (14) for switching one first gear in which the ring gear (11) can be coupled with the housing (6) and one second gear in which the ring gear (11) can be coupled with the sun gear (8), the sliding sleeve (14) being movable by way of one electromagnet consisting of magnet coils (22, 23) and one armature (24). It is proposed that the armature (24) be situated rotatably, but axially fixed, upon the sliding sleeve (14).
The invention relates to an electromagnetic selection device for a two-stage planetary gear set in accordance with the preamble of claim 1 disclosed in DE-A 199 17 673.
The electromagnetic selection device made known by DE-A 199 17 673 consists of one electromagnet located outside the housing of the planetary gear set and having one movable armature, the movements of which are transmitted from outside via a lever mechanism by the transmission housing to a sliding sleeve situated in the transmission housing. By the electromagnetic lever mechanical control, the sliding sleeve is moved to a first and to a second switch position in which with the housing are coupled either ring gear and sun gear for a direct through drive from input to output or the ring gear to achieve a ratio. The already known device has more potentials with regard to compact design and play-free transmission of motion. The housing aperture needed for the lever mechanism and sealing problems associated therewith are not advantageous.
The problem on which the instant invention is based is to improve an electromagnet selection device of the kind mentioned above with regard to a compact and closed design and to a transmission mechanism as play free as possible, specially between electromagnet and sliding sleeve.
The solution of said problem results from the features of claim 1. It is of advantage here that any lever mechanism for motion transmission between electromagnet and sliding sleeve is eliminated thereby reducing the number of parts, since the armature is directly fastened—via a bearing—upon the sliding sleeve. Eliminated is also any play necessarily associated with a lever mechanism. Since the armature is situated within the transmission housing, an aperture is eliminated and therewith a possible point of leakage in the wall of the transmission housing.
In an advantageous development of the invention, the armature is designed as an annular part, that is, it engages over its whole periphery on the sliding sleeve—an eventual misalignment being thus extensively ruled out.
According to an advantageous development of the invention, the armature has slopes which correspond with slopes of counterparts of the armature, that is, the armature forms with its counterparts a sliding cone. The armature slopes minimize over the sliding path the air gap between armature counterpart and armature. Thereby is achieved the advantage of a uniform electromagnetic tightening force (constant tension flow over the whole switching path).
According to one other advantageous development of the invention, the whole electromagnetic selection device is designed as front-mounted structural part which is inserted in the transmission housing where it is fastened. This adds advantages both in assembly and production and also the advantage of a compact closed design for the entire planetary gear set. The sliding sleeve is encased by the structural unit thus reducing churning losses.
According to another advantageous development of the invention, to the prefabricated structural unit is added on its front side one brake disc with inner coupling gears which together with the structural unit is inserted in the transmission housing where it is fastened. Sliding sleeve and brake disc, the respective coupling teeth of which correspond with each other, are thus already centered during the assembly.
One embodiment of the invention is shown in the drawing and described in detail herebelow. In the drawing:
The selector unit 20, more specifically described herebelow, controls the axial motion of the sliding sleeve 14 for three positions, that is, a neutral position and two switch positions. In the first switch position, shown in the drawing, the sliding sleeve 14 couples the ring gear 11 and the driving sleeve 7; in this “direct gear” the reduction ratio is 1:1. To reach the second switch position, the sliding sleeve 14 is axially moved to the right by the selector unit 20 until the outer coupling gears 16 engage with the inner coupling gears 17 of the brake disc 18. The ring gear 11 is then decelerated or held stationary relative to the housing 6 via the sliding sleeve 14. The rotational speed of the input shaft 2 is then geared down.
The sliding sleeve has on its external periphery grooves (not shown) in which locking bolts engage to keep the sliding sleeve in one of the switch positions.
The locking bolts are movable by an electromechanical actuation unit 29 radially to the transmission main axle where they engage under tension in the grooves and, by an electromagnet of the actuation unit 29, are drawn radially outwards so as to unlock the sliding sleeve.
The electromagnets of the selector unit and of the actuation unit 29 must therefore be controlled, that is, supplied with current, only when a selection process is being carried out. Aside from switchings, the locking unit prevents an unintended displacement of the sliding sleeve.
The selector unit 20 has two magnet coils 22, 23 between which an armature 24, designed as an annular part, is axially movably disposed. With the armature 24 are coordinated one left armature counterpart 25 and one right armature counterpart 26, respectively, in the area of the left magnet coil 22 and of the right magnet coil 23. The armature 24 is fixedly connected with the outer ring of the grooved ball bearing 24, that is, the axial motion of the armature 24 is transmitted directly to the sliding sleeve 14. Herebelow is described the exact structure of the selector unit 20.
The selector unit 20 operates so that either the left magnet coil 22 for movement of the armature 24 to the left or the right magnet coil 23 for movement of the armature 24 to the right is supplied with current. By virtue of the above mentioned constant traction flow, there immediately results, upon a reversal, the full magnetic tightening force upon the armature 24.
- 1 planetary gear set
- 2 input shaft
- 3 output shaft
- 4 housing cover
- 5 housing cover
- 6 transmission housing
- 7 driving sleeve
- 8 sun gear
- 9 planetary gear
- 10 planet carrier
- 11 ring gear
- 12 outer coupling gearing (part 11)
- 13 inner coupling gearing (part 14)
- 14 sliding sleeve
- 15 outer coupling gearing (part 7)
- 16 outer coupling gearing (part 14)
- 17 inner coupling gearing (part 18)
- 18 brake disc
- 19 grooved ball bearing
- 20 selector unit
- 21 fastening bolts
- 22 magnet coil, left
- 23 magnet coil, right
- 24 armature
- 24a armature slopes
- 24b armature slopes
- 24c front surface
- 24d front surface
- 25 armature counterpart, left
- 24a slopes (part 24)
- 26 armature counterpart, right
- 27 magnet body
- 27a magnet body
- 27b magnet body
- 27c magnet body
- 28 through hole
- 29 electromagnetic actuating unit
- 30 front-mounted structural unit
Claims
1-9. (canceled)
10. A two-stage planetary gear set (1) having one input shaft (2) and one output shaft (3), one sun gear (8), one ring gear (11), one planet carrier (10) with planetary gears (5), one transmission housing (6) and one electromagnetic selection device having one sliding sleeve (14) for switching a first gear in which the ring gear (11) can be coupled with the housing (6) and a second gear in which the ring gear can be coupled with the sun gear (8), the sliding sleeve (14) being displaceable by means of one electromagnet consisting of magnet coils (22, 23) and one armature (24), the armature (24) is situated rotatably but axially fixed upon the sliding sleeve (4).
11. The planetary gear set according to claim 10, wherein the armature (24) is designed as an annular part and is fastened by means of one bearing (19) upon the sliding sleeve (14).
12. The planetary gear set according to claim 10, wherein the magnet coils (22, 23) are located within the transmission housing (6).
13. The planetary gear set according to claim 11, wherein the armature (24) has one outer and, axially offset, one inner slope (24a, 24b) with which can be coordinated one outer and one inner armature counterpart (26, 25), the armature slopes and armature counterpart each forming one sliding cone.
14. The planetary gear set according to claim 13, wherein an angle (a) of the armature slopes or of the cone amounts to about 3 degrees.
15. The planetary gear set according to claim 13, wherein the armature slopes (24a, 24b) are delimited by annular front faces (24c, 24d) which act as stop surfaces for terminal positions of the armature (24).
16. The planetary gear set according to claims 11, wherein the magnet coils (22, 23), the armature (24) with a bearing (19), the sliding sleeve (14), and the armature counterparts (25, 26) are accommodated in one magnet body (27) which is designed as a front-mounted structural part (30) and can be inserted in the transmission housing (6).
17. The planetary gear set according to claim 16, wherein on one front side (27c) of the structural unit (30) is situated one brake disc (18) provided with one inner coupling gearing (17) which together with the structural unit (30) is fastened in the transmission housing (6).
18. The planetary gear set according to claim 10, wherein the electromagnetic selection device has one electromagnetically actuatable locking unit with a fastening unit (20) and locking bolts which engage in grooves of the sliding sleeve (14) and retain the sliding sleeve in a switch position.
Type: Application
Filed: Aug 30, 2003
Publication Date: Mar 9, 2006
Patent Grant number: 7300376
Inventors: Harald Eckert (Meckenbeuren), Manfred Auer (Zoznegg)
Application Number: 10/527,734
International Classification: F16H 48/06 (20060101); F16H 3/44 (20060101);